Automobiles Industry
Vacuum brazing is essential in the manufacturing of a wide range of automobile components that demand strong, precise, and contamination-free joints. It is commonly used in parts such as oil coolers, heat exchangers, radiators, fuel system components, transmission parts, and EGR (Exhaust Gas Recirculation) coolers. Additionally, vacuum brazing is critical for joining aluminum cold plates, liquid cooling heat sink plates, carbide tipped gear hobs, laminated aluminum evaporators, high voltage DC relays, battery coolers, and aluminum alloy chassis.
Articles
6063 Series Aluminum Finned Heat Exchangers: The Strength of Vacuum Brazing.
Aluminum alloy 6063 is a material of choice for finned heat exchangers, favored across industries from automotive to HVAC for its excellent balance of properties.
Vacuum Annealing of 316L Stainless Steel Corrugated Pipes for India’s Automobile Manufacturing
Normantherm’s vacuum furnaces provide precise vacuum annealing of 316L stainless steel corrugated pipes for automotive applications such as exhaust, EGR, and turbocharger lines in India.
Vacuum Annealing of 316L Stainless Steel Corrugated Pipes
316L stainless steel corrugated pipes are widely used in flexible metal hose assemblies, pressure lines, gas distribution networks, chemical piping, thermal expansion systems, and industrial fluid transport.
6063 Aluminum Alloy Vacuum Brazing Components for Automobile Industry
Discover how 6063 aluminum alloy is vacuum brazed for automotive applications in India. Learn about its advantages, applications in EV cooling systems, radiators, and heat exchangers, and how Normantherm vacuum furnaces deliver precise, reliable, and high-quality brazing solutions.
Vacuum Brazing of 6063 Aluminum Alloy — Advancing Lightweight Manufacturing in the Automotive Industry
Explore Normantherm’s vacuum brazing technology for 6063 aluminum alloy components used in automotive and EV manufacturing. Learn how our furnaces ensure strong, oxidation-free joints and enhance lightweight vehicle production efficiency.